Tag Archives: dsd

Audirvana Plus, an audiophile music player for the Mac, has now been released for Windows.

Audirvana was developed in France by Damien Plisson, originally as an open source project (you can still get this here but it has not been updated since 2012). The description there still applies: “No equalizer, no trendy special effects, just the music”. Both Mac and Windows come with music players bundled with the operating system – in Apple’s case the mighty iTunes – but the issue which Audirvana addresses is that these players are about convenience and features as well as sound quality.

Another problem is that the sound system in a modern operating system is complex and needs to support every kind of application while from the user’s perspective it should “just work”; and this can mean compromises, such as resampling or normalizing the audio. This does not matter in most circumstances, but if you want the best possible sound and spend money on high-res downloads or streaming, for example, you want bit-perfect sound.

This perhaps is a good reason not to play music directly from a PC or Mac; but the counter-argument is that using your existing computer reduces the box-count (and expense) of streaming, and that the flexibility and processing power of desktop computer is handy too.

So what does Audirvana offer? The Windows version is still to some extent work in progress and not yet as full-featured as the Mac version; however the developers are promising to add the missing pieces later. However the product is already a capable player with the following key features:

DSD support works whether or not you have a DSD DAC. If you have a DSD DAC, you get full native DSD. If you do not, Audirvana will convert to hi-res PCM and it still sounds good. You can control how the DSD is converted in settings, such as the amount of gain to apply (without it, DSD files will sound quiet).

Here is a DSD file playing on a non-DSD DAC:

2. MQA unfolding whether or not you have an MQA DAC. The way this works is similar to DSD. If you have an MQA DAC, the decoding will take place in hardware. If you do not, Audirvana will process the MQA track in software. For example, I have a 16-bit, 44.1 kHz MQA-encoded FLAC that plays in Foobar 2000 as a 16/44 file, downloaded from here. In Audirvana though, the same file claims to be 24-bit/352.8 kHz track.

That resolution is not genuine; but what matters is that MQA decoding is taking place. If the file is played through an MQA-capable DAC like the Meridian Explorer 2, I get a green light indicating MQA decoding on the DAC. If I play the “original resolution” version, I get a blue light indicating “MQA Studio”. WASAPI and ASIO support. WASAPI is the native Windows standard which enables bit-perfect output and is aimed at professional audio engineers. ASIO is a standard with similar features developed by Steinberg.

3. A library manager which performs well with large numbers of tracks. I tried it with over 50,000 tracks and it was perfectly responsive. It uses the open source SQLITE database manager.

4. Hi-res streaming via Qobuz, HIRESAUDIO or Tidal. There is no support for the likes of Spotify or Apple Music; I guess these are not the target market because they use lossy compression.

Not available yet, but coming, is a remote app for iOS (iPhone, iPad and iPod Touch), audio effects via VST plugins, and kernel streaming output.

The Audirvana User Interface

Audirvana is delivered as a download though it is a click-once application which means it updates semi-automatically, prompting you to update if an update is available. The user interface is, from the point of view of a Windows user, rather quirky. There is no menu or ribbon, but by clicking around you can find what you need. Some of the settings are accessed by clicking a gearwheel icon, others (such as the per-device options shown in the illustration above) by clicking an arrow to the right of the device name. There is also a compact view, obtained by clicking a symbol at top left, designed for playback once you have lined up the tracks you want.

The current version seems unreliable when it comes to showing cover art in the library. Sometimes cover art shows up in the mini view, but not the full view.

Searching the library is quick, but because the user interface is fairly blocky, you do not see many results on a page. An option just to show details in a list would be good (or perhaps it exists but I have not clicked in the right place yet).

I can forgive all this since despite a few annoyances the user interface is responsive, the search fast, and playback itself works well.

Sound quality

How much impact does the music player have on sound quality? This is difficult to answer definitively. On the one hand, the amount of distortion introduced by a sub-optimal player should be negligible compared to other sources of distortion. On the other hand, if you have gone to the trouble and expense of investing in hi-res downloads, streaming or DSD, it must be worth ensuring that every link in the chain does justice to those sources.

It is true that on Windows, with its enthusiastic technical audiophile community, most of what Audirvana does can be achieved with free players such as Foobar 2000 or VLC. There is also the excellent JRiver as an alternative paid-for player, though this lacks software MQA decoding (appreciating that not everyone likes or needs this).

That said, the uncomplicated user interface of Audirvana Plus is great for audio enthusiasts who would rather not spend too much time fiddling with settings or plugins. Support for the iOS remote app is an unfortunate missing piece at present, and Android users miss out too.

The Windows version needs a bit more work then (I also encounted some unpleasant noises when trying to adjust the volume within the application), but it does enough right to justify its relatively modest cost, and the bugs will fixed. Head over to the Audirvana site for a free trial.

I run Logitech Media Server (LMS) on a Synology NAS. It works very well, better than when I used a Windows VM.

There is an annoyance though. Synology has been slow to keep its LMS package up to date and the official release is still 7.7.6. There are a few issues with this release, but I lived with it, until I discovered that LMS 9.x can play DSD files, using a DSDPlayer plugin that adds DoP (DSD over PCM) support. This means you can output native DSD provided you have a DSD DAC (and some DSD files to play). DSD is the format used by SACD and some audiophiles swear it sounds better than PCM.

I then discovered that Synology is showing signs of updating LMS and has a beta release of LMS 9.0. You enable beta versions in the Package Center and it will offer to update.

I installed, then added DSDPlayer and, hmm, I could see the DSD files but they did not play.

I found a fix for the DSD issue. A user has updated the plugin, and if you add the following plugin repository:

http://server.pinkdot.nl/dsdplayer/repo.xml

you can update DSDPlayer and it works.

Now I can play native DSF files through Squeezebox Touch (you also need the EDO modification) and a Teac DSD DAC. Great.

However, I then discovered that the LMS 9.0 UI does not work in Microsoft Edge, if you have the Creators Update. The links are not clickable.

There is a fix described here. I found the commit on GitHub here. However this does not update the Synology package. I logged into the Synology over SSH and made the change manually in @appstore/SqueezeCenter/HTML/Default/slimserver.css.

It works. I’m glad because I have LMS on the Edge favourites bar, and the alternative (opening LMS in IE or another browser) is less convenient.

And yes, I use Edge, in part to keep in touch with what it is like, in part because I’m resistant to a Google Chrome monoculture, and in part because it’s pretty good now (the initial Edge release was hardly usable).

There is still a problem though. The LMS Settings page does not work in Edge. I can live with that (open in Internet Explorer) but would like to find a fix.

Update: I fixed the settings issue by installing the latest LMS 9.0 with this patch. Many thanks to LMS user pinkdot on the LMS forums. However I still needed the manual fix for slimserver.css.

There are many intriguing debates within the world of audio, and one which has long interested me concerns DSD (Direct Stream Digital). This is an alternative technology for converting and recovering sound from digital storage. The more common PCM (Pulse Code Modulation) works by sampling sound at very short intervals and recording its volume. By contrast DSD records the difference between one sample and the next, sampling at an even greater frequency to compensate for the fact that it only captures a single bit of data in each sample (ie on or off). For example the standard used by CD is:

16-bit precision, 44.1 kHz sampling rate

and by SACD (a DSD format):

1-bit precision, 2.8224 MHz sampling rate

The SACD was introduced by Philips and Sony in 1999 as an upgrade to CD, since it is a higher resolution format cable of a dynamic range of 120 dB and frequency response up to 100 kHz. It was an effort, like the PCM-based DVD Audio, to convince the public that the CD is not good enough for the best quality sound.

SACD was largely unsuccessful, mainly because there was not really any dissatisfaction with CD quality among the general public, and even some experts argue that CD quality already exceeds what is required to be good enough for human hearing.

That said, SACD was popular in the niche audiophile community , more so than DVD Audio. Some listeners feel that SACD and DSD results in a more natural sound, and believe that PCM has some inherent harshness, even at higher-than-CD resolution. Enthusiasts say that DSD stands for “Doesn’t sound digital”. For this reason, there is a regular stream of new SACD releases even today, and DSD downloads are also available from sites like Native DSD Music and Blue Coast Records. Some DSD downloads are at higher resolution than SACD – Double-rate or Quad-Rate.

The resurgence of DSD has been accompanied by increasing availability of DSD DACs (Digital to Analogue Converters). While these tend to be more expensive than PCM-only DACs, prices have come down and a quick eBay search will find one from under £100.

There are several complications in the DSD vs PCM debate. While DSD is a reasonable format for storing digital audio, it is poor for processing audio, so many SACDs or DSD downloads have been converted to and from PCM at some point in their production history. If PCM really introduces harshness, it is presumably too late by the time it gets to DSD. That said, it is possible to find some examples that are captured straight to DSD; this can work well for live recording.

Another complication is that some consumer audio equipment converts DSD to PCM internally, to enable features like bass management.

Is there any value in pure DSD? I wanted to try it, preferably with DSD files rather than simply with SACD, since this is much easier for experimenting with different formats and conversions as well as enabling Double DSD and higher. Unfortunately SACD is rather hard to rip, though there is a way if you have the right early model of Sony PlayStation 3.

The first step was to get a DSD-capable DAC. I picked the Teac 301 which is a high quality design at a reasonable price. But how to get DSD to the DAC? Most DSD DACs support a feature called DSD over PCM (DoP), which conveys the DSD signal in a PCM-format wrapper. DoP is not a conversion to and from PCM, it merely looks like PCM for better compatibility with existing playback software.

Next, I used a Raspberry Pi 2 supplied by Element14 (cost around £25.00) and installed Volumio, a pre-built version of Linux which includes an audio streamer and web-based user interface. You download Volumio as a single file which you burn onto a micro SD card using a utility such as Win32DiskImager. Then you plug the card into the Pi, connect to a home network via Ethernet and to a DAC via USB, and power on.

After a minute or two I could connect to Volumio using a web browser.

My music is stored mostly in FLAC format but with a few DSD files in Sony’s DSF (Digital Storage Facility) format, and located on a Synology NAS (Network Attached Storage). In Volumio’s menu I went to Library and mounted the network share containing the media. Next, I tried to play some music. PCM worked, but not DSD. I changed the playback settings to enable DoP:

Success: My DSD files play perfectly:

If you squint at this image you will see that the 5.6 MHz light is illuminated, indicating that the DAC is processing Double DSD.

It sounds lovely, but is it any better than the more convenient PCM format? I am sceptical, but intend to try some experiments, using a forthcoming audio show to find some willing listeners.

That aside, I am impressed with the capability of the Raspberry Pi for enabling a simple and cost-effective means of playing DSD over the network, although with the assistance of an external DAC. It plays PCM formats too of course, and with Volumio is easily controlled using a mobile device, thanks to the touch-friendly web UI.

Sony’s top of the range wireless speaker grabbed my attention because it is not just a Bluetooth and Apple AirPlay speaker, but also the entry-level device in Sony’s push for high resolution audio, billed as better than CD quality. Get all the ducks in line, and you can play DSD (the format of SACD) downloads directly through this device, or high-resolution PCM at up to 32-bit/192kHz. It has the speaker technology to go with it too: sub-woofer for deep bass (within the limitations of a small box), and super tweeters for extended high frequencies up to a rumoured 40kHz, though I cannot find detailed specification from Sony. Note that this is well beyond what humans can hear.

In the box you get the wireless speaker, remote, polishing cloth, mains cable, two odd little sticks which, it turns out, are tools for removing the front grille, and a couple of short leaflets in multiple languages.

This unit is flexible to the point of confusion. Here are the ways you can play back music:

Apple AirPlay: play from iTunes over an wired or wireless network using Apple’s proprietary protocol.

Bluetooth from Bluetooth-enabled devices such as smartphones or tablets. Uses A2DP (Advanced Audio Distribution Protocol) for best quality.

From a DLNA-compliant music server on your network. Sony’s free Media Go will do, but there are quite a few of these around.

Audio in using an old-fashioned 3.5mm jack cable.

Direct attached USB storage. I had limited success with this, but did manage to play some FLAC files from a USB stick. It is designed for just a few files.

Direct USB connection to a PC or Mac. In this mode the unit is a USB DAC. This is how you get the very best quality.

Supported formats are MP3, AAC, WMA, WAV, FLAC, and DSD via USB after firmware update. ALAC (Apple lossless) is not listed, but an Apple lossless file I created played fine from a USB stick, from which I conclude that it supports that too.

So how is the out of box experience? The first thing you notice is that this thing is heavy – 4.6kg. Despite its relatively small size (about 430 x 133 x 125mm) it is not all that portable; I mean, you can move it about if you like, but as well as the weight there is no handle and it should be moved with care; it is also mains-only.

The introductory manual gives you several ways to get started. It covers only wi-fi connection; if you want to use a wired network, Bluetooth or USB connection, you are referred to the online manual here. Otherwise, you are offered instructions for iOS, Android, PC or Mac. I have a Sony Xperia (Android) smartphone so I took that option; possibly a mistake.

I tried to follow the setup guide. I have a Sony Xperia (Android) smartphone. I downloaded the recommended SongPal app and successfully paired the phone with the speaker with NFC (tap to connect). The app prompted me to enter my home wifi password, but I was not successful; it just did not want to connect and kept on prompting me. I got hold of an iPhone, tried SongPal on that and was able to connect. Odd.

Once up and running it was time to play some music. I was able to play direct from the phone (Bluetooth streaming) without any problem. My results with DLNA were mixed. I have Logitech Media Server on the network which supports DLNA. Bizarrely, this usually shows up as a source when using the Android SongPal, but not when using the iOS SongPal. It worked at first, but then I started getting “Playback failed”. I had better luck with Windows Media Player over DLNA, and also Sony’s own Media Go.

That said, even when it is working I don’t much like the DLNA option. There is no search option and if you have a lot of music you do endless scrolling. This seems to be a feature of DLNA rather than the fault of SongPal, and a reason why it will never catch up with iTunes/AirPlay or Sonos.

SongPal also supports various apps such as Tunein (internet radio), Music Unlimited and Deezer. You can also add apps such as Google Play. This is a tad confusing though. Tunein seems to be built-in; you can select a radio station, play, turn off your smartphone and it keeps going. Choose Google Play though and it plays over Bluetooth from your phone; disconnect the phone and the music stops.

Since Tunein appears to be baked it, it is a shame that you cannot use the radio from the remote without needing SongPal.

If SongPal is not working for you, or if you have a non-supported phone such as Windows Phone, you can connect over the network. The manual suggests that you do a direct connection to a PC using an Ethernet cable, in which case the unit will likely show up in a web browser on 169.254.1.1. However if you connect the Ethernet cable to a switch (such as a socket on the back of your broadband router) it will show up on whatever IP number is allocated by the router; you can find it by looking at DHCP allocations, a bit tricky. There is also a WPS button for instant connection if your wireless router supports it (mine is disabled for security reasons).

Wireless configuration through a web browser, once you get there, is really easy. You can even set a fixed IP address if you want. However, the browser configuration does NOT give access to all the features of the unit; it is mainly for network configuration. The SongPal app has additional settings, including EQ, a setting called ClearAudio+ which does who knows what, and DSEE HX which is meant to enhance lossy audio files such as MP3. That’s unfortunate; not everyone uses iOS or Android. That said, SongPal is not much fun to use anyway so you are not missing too much.

Once the unit was up and running I tried a few other modes. I ran up Apple iTunes and tried AirPlay, which works great, though with the usual AirPlay annoyance of a pause when connecting. When using AirPlay, you can use the pause, next and back buttons on the supplied remote. These don’t work in all modes, another point of confusion.

What about playing high resolution music or DSD? I was excited about this possibility so keen to get it working. I even have some DSD downloads to try. Discovering how was a bit of an adventure. You need to do two things.

First, update the firmware, by connecting over wifi and using the otherwise undocumented update button on top of the unit (check Sony’s site for full instructions). You need at least firmware 2.05.2.01.

Second, find and install the Hi-Res Audio Player for PC or Mac on Sony’s site. Third, get a USB cable (not supplied) and connect it to a PC.

I was rewarded with excellent sound quality, though the audio player software is basic. On my DSD downloads I could see, for example, 2.8MHzs DSF indicated, and the configuration offered “DSD Native”, so I believe this thing really is a DSD DAC (though who knows, it may convert to PCM internally).

Once connected in this way, you can also set it as the output for other audio software such as Foobar 2000 or iTunes.

The sound

What of the sound though? The SRS-X9 has seven speakers: 1 sub-woofer, two midrange, two tweeters and two super-tweeters. This means you get mono for the lowest frequencies, but that it not really a disadvantage as low frequencies are not directional and you don’t get much stereo image with this box anyway.

In addition, there are two passive bass radiators.

As you would expect from a unit at this price (nearly £600 in the UK) and with some audiophile pretensions, the sound is very good. In its class – as a single box wireless speaker – it may be the best I’ve heard. It easily beat a Squeezebox Boom, sounding both bigger and cleaner. I also thought it had the edge over an Audyssey Lower East Side Audio Dock Air, which is another AirPlay speaker with good sound, though the Audyssey offers deeper bass.

The SRS-X9 does go relatively deep though, and the bass is clean whereas the Audyssey tends to boom a little.

The sound is not faultless though. It is a touch bright and can get a little strident at higher volumes. Vocals can have slightly exaggerated sibilance. Stereo imaging, as mentioned above, is poor, thanks to the close proximity of left and right speakers. The sound is exceptionally clean, which is hardly a fault, but worth noting if you like to get down and boogie; you might find the SRS-09 overly clinical.

These are reasons why the SRS-09 will not replace a traditional home stereo for me. I also like having separate speakers either side of my PC screen, so this is not perfect for that role.

HOWEVER as a minimalist and good-looking single box speaker this is excellent; perfect for a sitting room if you do not want the clutter of a traditional home stereo, or for somewhere else round the house where you want high quality music.

The sound over USB is best, and ideally I would suggest parking a Mac Mini or similar small computer next to it and using it that way. On the other hand, AirPlay also works well and in conjunction with Apple’s Remote app this is a convenient solution. Bluetooth can be handy too.

A few other notes. Sony has gone for an understated design, and the buttons on top of the unit are completely flat and in fact mostly invisible unless you hover your hand close by – it uses a proximity sensor. Clever, but easy to hit a button by accident if you are repositioning the device.

The appearance is glossy black, looks nice but gets dusty easily. Sony supplies a little black cloth for polishing. Unfortunately the super tweeters on top are surrounded with a slightly sticky area which attracts dust and is hard to clean; this might bother you if you are meticulous about such things.

The front grille can be removed with two supplied magnetic tools; Sony says this give a “more dynamic sound” though the difference is not great.

It is a shame that there is no audio output port, neither for headphones, nor for external speakers. You cannot use this as a DAC for another stereo system, for example.

An S/PDIF optical digital input would also be handy, as this is more universally compatible than USB for wired digital input.

Other weak points are the fiddly setup, reliance on a mobile app for some settings, general unreliability of DLNA, and some problems which mysteriously disappear when you turn off and on again (with so many input options it is not surprising that the Sony gets confused sometimes).

Conclusion? There is a ton of technology packed into this box and it does sound good. I like the option to play back native DSD even though it is all a bit mad; it is doubtful that the inaudible higher frequencies really make any difference, and there are compromises elsewhere such as the mono sub-woofer and limited stereo image that more than outweigh any benefit from high-resolution (a controversial subject). Never mind though; Sony has taken trouble over the sound and it shows.

Good points

Flexible streaming options

High quality sound, exceptionally clean

Compact, minimalist design

Smooth AirPlay support

Support for hi-res PCM and DSD audio files when connected via USB

Bad points

Dependence on iOS or Android apps for some features, no support for Windows Phone

I went along to the Audio Lounge in London to hear Sony’s Eric Kingdon (Senior European Technical Marketing Manager) and Mike Somerset (Product Marketing Manager) talk about high resolution audio and demonstrate the HAP-Z1ES player.

The HAP-Z1ES costs £1,999 and plays both DSD (the format of SACD) and PCM formats, including DSDIFF,DSF,WAV,FLAC,ALAC,MP3 and ATRAC. PCM is up to 24-bit/192kHz and DSD up to double DSD (DSD 128). It was demonstrated with the Sony TA-A1E amplifier (also £1999) and the Crystal Cable Arabesque Mini loudspeakers which costs €12,999 (not sure of £ price) including the stands.

This was a small event for customers and there were around 20 attending. Ruth Phypers at the Audio Lounge gave us a warm welcome and conveyed nothing other than enthusiasm for audio; no high-pressure sales here. The talk and demonstration took place in the basement listening room.

High resolution audio is controversial, in that there is evidence that even CD quality (16-bit/44.1 kHz) is good enough to capture everything we can hear in normal music played at normal levels – see Monty Montgomery’s excellent technical explanation and accompanying videos for why – and I was interested to see how Sony is pitching high-res to its potential customers. I was also interested to see if it would broach the tricky subject of DSD vs PCM and whether there is any audible difference.

In this respect it was a curious event as you will see. One of the odd things was that little music was played, maybe 10 minutes out of a one and a half hour presentation.

Somerset kicked things off, explaining the battle between convenience and quality in music reproduction. “We’ve lost a lot in quality” he said, thanks to the popularity of MP3. So what does Sony mean by high-res? Anything beyond CD quality, he said, confusing the issue: is it MP3 that is limiting audio quality today, or CD?

“A lot of people out there think CD, that’s as good as it gets, nothing better, obviously we know that’s not true,” he said.

That said, he made the point that the Z1ES is not just designed for high-res, but to perform well with most formats and resolution. It has a DSEE (Digital Sound Enhancement Engine) which supposedly improves the sound of lossy-compressed audio by “improving the spectrum” (according to the slide; I still have no idea what this means); and a DSD remastering engine that converts lossless PCM to double DSD on the fly (the PCM file remains as-is and it is not stored twice).

Why would you want to do that? I asked Kingdon later who said it was a matter of personal taste; you should take it home and try it. Personally I’m not sure why it should make any difference at all to the sound; you would have thought it would be audibly transparent if the double DSD encoding is doing its job, and if it does sound different it raises the question of whether the DSD conversion ends up colouring the sound; unless perhaps the DAC is more capable with DSD than with PCM. On this latter point Kingdon said no; the Burr-Brown DAC is excellent for PCM. DSD remastering is optional and you can easily enable or disable the feature.

Somerset also explained that the Z1ES does not stream music; it copies audio files to its own internal storage (1TB hard drive). However it can detect when music is added to a network location such as a NAS (Network Attached Storage) drive and copy it automatically. The reason it is copied and not streamed is to eliminate network latency, he said. If 1TB is not enough, you can attach a USB external drive, but this must be reformatted to Ext4 by the system, deleting any existing files.

The Ext4 limitation was a matter of some discussion and discontent among the audience. The Z1ES runs Linux internally, hence the requirement for Ext4, but Linux can mount other file formats successfully so a future firmware update will likely remove this limitation.

Kingdon then answered questions – would the unit go out of date quickly? No, it will have a long life, he promised. Why no video output? “It’s a pure audio product,” he said.

Eventually we got to a demo. Somerset kicked off by playing a Bob Dylan track, Blowing in the Wind (recorded in 1963) in three different formats. The first was 24-bit 88.2 kHz flac (I imagine derived from the DSD used for the SACD release, as conversions from SACD often end up as 24/88). The second was 256kpbs MP3. Finally, there was what he described as a “heavily compressed” MP3, though the exact resolution was not specified. All were derived from the same original source, we were told.

“For me, focusing on the vocals, you can really hear the difference in brightness,” said Somerset.

The odd thing was that (to my ears) the 24/88 version did indeed sound brighter and slightly louder than the MP3, which I find puzzling. I’m not aware of any technical reason why high resolution audio should sound any brighter (or tonally different) from CD or MP3. There was not a dramatic difference in overall quality from what little I could tell in the few seconds of music we heard, but I was not sure that the brighter sound was an improvement; Dylan can sound a little strident at times and the slightly mellower (and dare I say, more analogue-sounding) MP3 version could well be preferred.

We switched back and forth a couple of times, and then Somerset played the “heavily compressed” version. This sounded OK too, from what I could hear of it, which might explain why Somerset talked over it and stopped playing it quickly, saying how bad it was.

Next we heard a DSD download from Blue Coast records; it was Immediately Blessed by Keith Greeninger. This sounded superb, far better than the Dylan, though I doubt this was much to do with formats, but more because it was a modern recording made by a dedicated audiophile label. It was the best sound we heard.

Daft Punk followed, at 24/88.2, and then a 24/96 Linda Ronstadt track from 1983, and then a Nat King Cole song from 1957 in 16/44.1 format.

That was it for demos, if I remember right. What was notable to me was that Sony never demonstrated high-res vs CD quality, played only one DSD track, and used mostly older recordings. Some of these older recordings do indeed sound great, but I doubt it is the best way to demonstrate high resolution audio. If you attended the session as a high-res sceptic you would have heard nothing to change your mind.

Another odd thing was that we heard tracks there were available on SACD but played to us as PCM, most likely converted from the SACD source. Why did we not hear the DSD? It is probably do to with the difficulty all of us have in ripping SACD to audio files, which can only done (as far as I am aware) with a hacked PlayStation 3 with old firmware.

I asked Kingdon why Sony does not make its high-res products like the Z1ES more attractive by giving us the ability to rip SACD at best quality? The record companies would not like it, he said. “I’ve had this discussion so many times, I’ve got a big SACD collection, some of it isn’t available any more, I’m sorry, I don’t have an answer for you.”

Despite some frustration at the brevity and content of the demos, this was an enjoyable event with great hospitality from the Audio Lounge, some fascinating recollections from Kingdon of his time with Sony over many years, and a high level of warmth and friendliness all round.

Now if I were Sony I would use the best possible sources to show off high-res audio and the new player, and avoid misleading comparisons or doubtful technical statements. The fact is that many high-res sources, whether SACD, DVD Audio (which you can easily rip to a player like this) or downloads, do sound excellent, and for many that is more than enough to justify purchase.

Would a beautifully mastered CD or CD-quality download sound just as good? Possibly, and the fact that Sony did not attempt to demonstrate the difference, but compared high-res to MP3, lends support to the idea. If there really is a big difference, why not demonstrate it?

As for the Z1ES itself, I heard enough to know that it can sound very good indeed. It is disappointing that it has no surround sound capability, and no digital input so you could use it as an external DAC, but those are not show-stoppers. For myself I would be more inclined to invest in a standalone DAC, maybe one which is both DSD and PCM capable, but if you like simplicity, then a machine with its own storage, DAC, remote, and handy screen for album artwork does make sense.